Vera Martos scite author profile

The targeting of metabolically labeled glycans with conventional MRI contrast agents has proved elusive. In this work, which further expands the utility of xenon Hyper-CEST biosensors in cell experiments, we present the first successful molecular imaging of such glycans using MRI. Xenon Hyper-CEST biosensors are a novel class of MRI contrast agents with very high sensitivity. We designed a multimodal biosensor for both fluorescent and xenon MRI detection that is targeted to metabolically labeled sialic acid through bioorthogonal chemistry. Through the use of a state of the art live-cell bioreactor, it was demonstrated that xenon MRI biosensors can be used to image cell-surface glycans at nanomolar concentrations.

show abstract

Highly Efficient, Nonpeptidic Oligoguanidinium Vectors that Selectively Internalize into Mitochondria

Fernández‐Carneado

et al. 2004

View full text Add to dashboard Cite

Oligoguanidinium-based cell delivery systems have gained broad interest in the drug delivery field since one decade ago. Thus, arginine-containing peptides as Tat or Antp, oligoarginine peptides, and derived peptoids have been described as shuttles for delivering nonpermeant drugs inside cancer cells. Herein we report a new family of tetraguanidinium cell penetrating vectors efficiently internalized in human tumor cells. Their high internalization, studied by confocal microscopy and flow cytometry, as well as their specific accumulation in mitochondria makes these new vectors likely vehicles for the targeted delivery of anticancer drugs to mitochondria.

show abstract

Stability and structural recovery of the tetramerization domain of p53-R337H mutant induced by a designed templating ligand

Gordo

Martos

Santos

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

Protein p53 is a transcription factor crucial for cell cycle and genome integrity. It is able to induce both cell arrest when DNA is damaged and the expression of DNA repair machinery. When the damage is irreversible, it triggers apoptosis. Indeed, the protein, which is a homotetramer, is mutated in most human cancers. For instance, the inherited mutation p53-R337H results in destabilization of the tetramer and, consequently, leads to an organism prone to tumor setup. We describe herein a rational designed molecule capable of holding together the four monomers of the mutated p53-R337H protein, recovering the tetramer integrity as in the wild-type structure. Two ligand molecules, based on a conical calix[4]arene with four cationic guanidiniomethyl groups at the wider edge (upper rim) and hydrophobic loops at the narrower edge (lower rim), fit nicely and cooperatively into the hydrophobic clefts between two of the monomers at each side of the protein and keep the tetrameric structure, like molecular templates, by both ion-pair and hydrophobic interactions. We found a good agreement between the structure of the complex and the nature of the interactions involved by a combination of theory (molecular dynamics) and experiments (circular dichroism, differential scanning calorimetry and 1 H saturation transfer difference NMR). molecular recognition ͉ multivalent calix[4]arene ligands ͉ oligoprotein stabilization ͉ protein-protein interactions

show abstract

Binding to protein surfaces by supramolecular multivalent scaffolds

Martos

Castreño

Valero

et al. 2008

Current Opinion in Chemical Biology

100

View full text Add to dashboard Cite

Expression of the aspartate/glutamate mitochondrial carriers aralar1 and citrin during development and in adult rat tissues

Arco

Morcillo

Martı́nez-Morales

et al. 2002

European Journal of Biochemistry

View full text Add to dashboard Cite

Aralar1 and citrin are members of the subfamily of calciumbinding mitochondrial carriers and correspond to two isoforms of the mitochondrial aspartate/glutamate carrier (AGC). These proteins are activated by Ca 2+ acting on the external side of the inner mitochondrial membrane. Although it is known that aralar1 is expressed mainly in skeletal muscle, heart and brain, whereas citrin is present in liver, kidney and heart, the precise tissue distribution of the two proteins in embryonic and adult tissues is largely unknown. We investigated the pattern of expression of aralar1 and citrin in murine embryonic and adult tissues at the mRNA and protein levels. In situ hybridization analysis indicates that both isoforms are expressed strongly in the branchial arches, dermomyotome, limb and tail buds at early embryonic stages. However, citrin was more abundant in the ectodermal components of these structures whereas aralarl had a predominantly mesenchymal localization. The strong expression of citrin in the liver was acquired postnatally, whereas the characteristic expression of aralar1 in skeletal muscle was detected at E18 and that in the heart began early in development (E11) and was preferentially localized to auricular myocardium in late embryonic stages. Aralar1 was also expressed in bone marrow, T-lymphocytes and macrophages, including Kupffer cells in the liver, indicating that this is the major AGC isoform present in the hematopoietic system. Both aralar1 and citrin were expressed in fetal gut and adult stomach, ovary, testis, and pancreas, but only aralar1 is enriched in lung and insulin-secreting b cells. These results show that aralar1 is expressed in many more tissues than originally believed and is absent from hepatocytes, where citrin is the only AGC isoform present. This explains why citrin deficiency in humans (type II citrullinemia) only affects the liver and suggests that aralar1 may compensate for the lack of citrin in other tissues.

show abstract

Calix[4]arene-based conical-shaped ligands for voltage-dependent potassium channels

Martos

Bell

Santos

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

show abstract

Direct Experimental Evidence for Halogen–Aryl π Interactions in Solution from Molecular Torsion Balances

et al. 2017

View full text Add to dashboard Cite

We dissected halogen-aryl π interactions experimentally using a bicyclic N-arylimide based molecular torsion balances system, which is based on the influence of the non-bonded interaction on the equilibria between folded and unfolded states. Through comparison of balances modulated by higher halogens with fluorine balances, we determined the magnitude of the halogen-aryl π interactions in our unimolecular systems to be larger than -5.0 kJ mol , which is comparable with the magnitude estimated in the biomolecular systems. Our study provides direct experimental evidence of halogen-aryl π interactions in solution, which until now have only been revealed in the solid state and evaluated theoretically by quantum-mechanical calculations.

show abstract

Xenon‐MRT an lebenden Zellen mit Hyper‐CEST‐Biosensoren für metabolisch markierte Glykane an der Zelloberfläche

et al. 2015

View full text Add to dashboard Cite

Das Targeting von metabolisch markierten Glykanen mit herkçmmlichen MRT-Kontrastmitteln erschien bislang als nicht realisierbar. Hier erweitern wir die Anwendungen von Xenon-Hyper-CEST-Biosensoren in Zellen und präsentieren damit die erste erfolgreiche molekulare Bildgebung dieser Glykane mittels MRT. Hyper-CEST-Biosensoren sind eine neue Klasse von MRT-Kontrastmitteln mit sehr hoher Empfindlichkeit. Darauf basierend wurde ein multimodaler Biosensor für sowohl Fluoreszenz-als auch Xenon-MRT-Detektion entwickelt, der selektiv mit metabolisch markierten Sialinsäuren durch bioorthogonale Chemie verknüpft wurde. Die Verwendung eines kürzlich entwickelten Bioreaktors zur Untersuchung lebender Zellen ermçglicht somit den Nachweis von Zelloberflächenglykanen mittels Xenon-MRT bei nanomolaren Konzentrationen.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Vera Martos

Live‐cell MRI with Xenon Hyper‐CEST Biosensors Targeted to Metabolically Labeled Cell‐Surface Glycans

Highly Efficient, Nonpeptidic Oligoguanidinium Vectors that Selectively Internalize into Mitochondria

Stability and structural recovery of the tetramerization domain of p53-R337H mutant induced by a designed templating ligand

Binding to protein surfaces by supramolecular multivalent scaffolds

Expression of the aspartate/glutamate mitochondrial carriers aralar1 and citrin during development and in adult rat tissues

Calix[4]arene-based conical-shaped ligands for voltage-dependent potassium channels

Direct Experimental Evidence for Halogen–Aryl π Interactions in Solution from Molecular Torsion Balances

Xenon‐MRT an lebenden Zellen mit Hyper‐CEST‐Biosensoren für metabolisch markierte Glykane an der Zelloberfläche

Contact Info

Product

Resources

About